机构地区:[1]School of Materials Science and Engineering,Tongji University [2]Key Laboratory of Advanced Civil Engineering Materials,Ministry of Education,Tongji University
出 处:《Journal of Materials Science & Technology》2013年第11期1104-1110,共7页材料科学技术(英文版)
基 金:supported by Key Project on Basic Research of Shanghai(No.08JC1419200);the Fundamental Research Funds for the Central Universities
摘 要:N-Acetyl-L-cysteine-capped CdSe-polyelectrolytes @ hydroxyapatite (NAC-CdSe-PEs@HA) composite microspheres were fabricated through a stepwise layer-by-layer method and used for fluorescence detection of Cu2+ ions. The hollow HA microsphere was confirmed to be an ideal host to load CdSe quantum dots (QDs) due to their large surface area, well-defined porous structure, and large inner hollow size. Furthermore, the introduction of polyelectrolyte layers contributed to the increase of the loading amount and the electrostatic interaction between microsphere and QDs. Experiments results showed that among various metal ions investigated, Cu2+ exhibited the highest quenching effect on the fluorescence of CdSe QDs loaded in the composite microspheres. Additionally, the composite exhibited improved sensibility in detecting Cu2+ due to the presence of HA microspheres. Importantly, it is easy to separate and recycle the composite microspheres from the detection solution due to their relatively large size and high stability, thereby avoiding secondary contamination.N-Acetyl-L-cysteine-capped CdSe-polyelectrolytes @ hydroxyapatite (NAC-CdSe-PEs@HA) composite microspheres were fabricated through a stepwise layer-by-layer method and used for fluorescence detection of Cu2+ ions. The hollow HA microsphere was confirmed to be an ideal host to load CdSe quantum dots (QDs) due to their large surface area, well-defined porous structure, and large inner hollow size. Furthermore, the introduction of polyelectrolyte layers contributed to the increase of the loading amount and the electrostatic interaction between microsphere and QDs. Experiments results showed that among various metal ions investigated, Cu2+ exhibited the highest quenching effect on the fluorescence of CdSe QDs loaded in the composite microspheres. Additionally, the composite exhibited improved sensibility in detecting Cu2+ due to the presence of HA microspheres. Importantly, it is easy to separate and recycle the composite microspheres from the detection solution due to their relatively large size and high stability, thereby avoiding secondary contamination.
关 键 词:CdSe quantum dots HYDROXYAPATITE Fluorescence quenching Copper ions
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